Table 5. amplifier performance comparisons – Rainbow Electronics MX7535 User Manual

MX7534/MX7535

Microprocessor-Compatible,
14-Bit DACs

10

______________________________________________________________________________________

Compensation

A compensation capacitor, C1, may be needed when
the DAC is used with a high-speed output amplifier.
The capacitor cancels the pole formed by the DAC’s
output capacitance and internal feedback resistance.
Its value depends on the type of op amp used, but typi-
cal values range from 10pF to 33pF. Too small a value
causes output ringing, while excess capacitance over-
damps the output. Minimize C1’s size and improve out-
put settling performance by keeping the PC board
trace as short as possible and stray capacitance at
I

OUT

as small as possible.

Bypassing

Place a 1µF bypass capacitor, in parallel with a 0.01µF
ceramic capacitor, as close to the DAC’s V

DD

and GND

pins as possible. Use a 1µF tantalum bypass capacitor
to optimize high-frequency noise rejection. Place a
4.7µF decoupling capacitor at V

SS

to minimize the DAC

output leakage current.

The MX7534/MX7535 have high-impedance digital
inputs. To minimize noise pickup, connect them to
either V

DD

or GND terminals when not in use. Connect

active inputs to V

DD

or GND through high-value resis-

tors (1M

Ω

) to prevent static charge accumulation if

these pins are left floating, as might be the case when
a circuit card is left unconnected.

Op-Amp Selection

Input offset voltage (V

OS

), input bias current (I

B

), and

offset voltage drift (TC V

OS

) are three key parameters in

determining the choice of a suitable amplifier. To main-
tain specified accuracy with V

REF

of 10V, V

OS

should

be less than 30µV and I

B

should be less than 2nA.

Open-loop gain should be greater than 340,000.
Maxim’s MAX400 has low V

OS

(10µV max), low I

B

(2nA), and low TC V

OS

(0.3µV/°C max). This op amp

can be used without requiring any adjustments. For

OP AMP

INPUT OFFSET

VOLTAGE (V

OS

)

INPUT BIAS

CURRENT (I

B

)

OFFSET VOLTAGE

DRIFT (TC V

OS

)

SETTLING

TO 0.003% FS

MAX400

10µV

2nA

0.3µV/°C

50µs

Maxim OP07

25µV

2nA

0.6µV/°C

50µs

AD554L*

500µV

25pA

5µV/°C

5µs

HA2620*

4mV

35nA

20µV/°C

0.8µs

Table 5. Amplifier Performance Comparisons

* AD544L is an Analog Devices part; HA2620 is a Harris Semiconductor part.

R4

33

Ω

R3

100

Ω

INPUT

DATA

SIGNAL

GROUND

A1

A2

7–14

6

20

5

4

3

2

19

1

C1
33pF

V

DD

V

DD

R

L

V

SS

MX7534

REF

RFB

IOUT

AGNDS

AGNDF

DGND

D7–D0

+

+

V

IN

NOTE: CONTROL INPUTS OMITTED FOR CLARITY.

V

O

Figure 6a. Unipolar Binary Operation with Forced Ground

R2

10

Ω

R1

20

Ω

INPUT

DATA

SIGNAL

GROUND

ANALOG

GROUND

A1

A2

8–21

7

27

6

5

4

3

26

2

1

C1
33pF

V

DD

V

DD

R

L

V

SS

MX7535

REFF REFS

RFB

IOUT

AGNDS

AGNDF

DGND

D13–D0

+

+

VOLTAGE

REFERENCE

NOTE: CONTROL INPUTS OMITTED FOR CLARITY.

V

O

Figure 6b. Unipolar Binary Operation with Forced Ground for
Remote Load